Interlocking Component Assembly for an Expandable Rack Assembly

ABSTRACT

An interlocking component assembly of an expandable rack assembly is proposed, including a plurality of horizontally-deposed panels each formed with a first opening, a plurality of vertically-deposed panels each disposed between two horizontally-deposed panels, a plurality of middle joint components each disposed in vertically-deposed panels, and a plurality of interlocking components each adapted for interconnecting two middle joint components to interconnect and fasten the horizontally-deposed panel to the vertically-deposed panel, wherein the height of the vertically-deposed panel is greater than the length of the middle joint component, such that the vertically-deposed panel can be coupled to the interlocking component to securely engage the horizontally-deposed panel with the vertically-deposed panel, thereby enabling the rack assembly to be free from limitations of assembling locations or dimensional specifications while the structural rigidity and strength of the assembled rack unit is enhanced.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention generally relates to interlocking componentassemblies and, more particular, to an interlocking component assemblyof an expandable rack assembly to hold a variety of objects for displayor storage purposes, in a manner to preserve the integrity of eachobject.

2. Description of Prior Art

Do it yourself, often referred to by the acronym DIY, that focus onpeople creating things for themselves without the aid of paidprofessionals, is a common trend in modern societies. As such,Ready-to-assemble furniture, also known as “knock-down furniture” or“flat packs”, is furniture supplied as a kit of flat parts and fastenersto be assembled, usually by the end user, with simple tools, become verycommon and popular. Assembled furniture is bulky, and incurs storage anddelivery costs disproportionate to its production costs; packaged RTAfurniture occupies little more volume than that of its components, andcan be shipped at far lower cost. Factory assembly is not necessary,further reducing cost. RTA furniture is typically packaged in a compactcarton with detailed assembly instructions for easy assembly.

Among the RTA furniture, rack assembly structures for holding or storingthings are most often seen and applied by consumers. Conventional rackassemblies typically consist of a plurality of panels for forming one ormore frame units with intersecting fasteners disposed on the rear of theframe unit to strengthen structural integrity of each of the panels orframe units mounted thereto.

However, conventional fasteners\often lack sufficient rigidity toeffectively support and hold the assembled rack structure in securedposition, which in turn makes the rack assembly structure unable tosustain and hold objects with heavy weight. Further, the panels or frameunit that constitute a rack assembly are manufactured by standardizationaccording to specifications, thus lacking flexibility in applications ifthe user desires to add more frame units for expanding the assembledrack structure. As such, the conventional rack assembly structures areknown to have disadvantages of insufficient structural rigidity andinconvenient application.

In an attempt to overcome the aforementioned drawbacks of priortechniques, Taiwanese Patent Publication has disclosed an interlockingcomponent assembly for a rack assembly, as depicted in FIG. 1A to FIG.1C. The interlocking component assembly is comprised of a plurality ofhorizontally-deposed panels 1, 1 a, a plurality of vertically-deposedpanel 3 each to be mounted between two horizontally-deposed panels 1, 1a, a plurality of expandable members 2 each to be disposed on the top ofvertically-deposed panels 3 and between horizontally-deposed panels 1, 1a, and a plurality of interlocking components 4 adapted to securelyfasten and hold horizontally-deposed panels 1, 1 a, vertically-deposedpanel 3 and expandable members 2 in position.

As illustrated in FIGS. 1A and 1B, each of two end ofhorizontally-deposed panels 1, 1 a has a first opening 10 formedtherethrough and a protruding footstool, respectively disposed at eachof two opposing sides on the bottom of the horizontally-deposed panel 1.

The vertically-deposed panel 3 is a hollow structure in a frame shapeand formed with a second opening 30 flush with the first opening 10,wherein a first positioning portion 300 is disposed at two opposed innerwalls of the second opening 300 respectively. The expandable member 2 isdisposed to straddle across two ends of the vertically-deposed panel 3and to posit between an end portion of the vertically-deposed panel 3and horizontally-deposed panels 1, 1 a, the expandable member 2 beingformed with a third opening 20, wherein a third positioning portion isdisposed at each of the two opposed inner walls of the third opening 20respectively.

FIG. 1C illustrates the interconnection and penetration of theinterlocking member 4 into the horizontally-deposed panel 1 a, thevertically-deposed panel 3 and the expandable member 2. The interlockingmember 4 is a cylindrical structure having a plurality of secondpositioning portions 40 disposed on the circumferential wall thereof,the interlocking member 4 being adapted to penetrate through the firstopening 10, the third opening 20, the second opening 30 in sequentialorder. The second positioning portion 40 is disposed to abut against thefirst positioning portion 300, the third positioning portion 200,thereby preventing the interlocking member 4 from moving arbitrarily inthe expandable member 2 and the vertically-deposed panel 3. A pluralityof screws 42 each are penetrated through a respective washer and lockedinto a corresponding screw bore 41 respectively, such thathorizontally-deposed panels 1, 1 a, vertically-deposed panel 3 andexpandable members 2 can be securely fastened and held in position bythe penetration of the interlocking member 4 to form at least one ormore frame units.

In the illustrated frame structure described above, the front and rearsides of the assembled frame unit may further include a mobile door anda back panel (not shown). When the user desires to expand and increasethe number of the frame units, it requires only having a required numberof horizontally-deposed panels 1, expandable members 2,vertically-deposed panels 3 stacked on one another on the assembledframe unit, and further an extended interlocking member 4 penetratingtherethrough for securely interconnecting and holding each ofhorizontally-deposed panels 1, 1 a, vertically-deposed panel 3, andexpandable members 2 by screws on each of the two sides thereof. Becausethe frame unit is often posited at a corner location where assembly isto be completed, it is cumbersome and inconvenient to have an extendedinterlocking member 4 easily assembled under the awkward situation.

Consequently, there is a need for an improved rack assembly that canovercome the defects of the prior art while providing ease in assemblyand installation for users' convenience.

SUMMARY OF THE INVENTION

In light of the drawback associated with the conventional techniques asdescribed above, the primary object of the present invention is toprovide an interlocking component assembly for an expandable rackassembly that can be assembled easily.

Another object of the present invention is to provide an interlockingcomponent assembly for an expandable rack assembly that is adjustable tomeet the users' need.

In accordance with the foregoing and other objectives, the presentinvention provides an interlocking component assembly of an expandablerack assembly, the interlocking component assembly comprising: aplurality of horizontally-deposed panels each formed with a firstopening, wherein a protective sheath may be adapted to cover the firstopening, and the horizontally-deposed panel is a panel body made of oneselected from the group of materials consisting of glass, stone, cement,metal and wood; a plurality of vertically-deposed walls of the secondopening respectively, and wherein a buffering member can be disposed ateach of two ends of the vertically-deposed panel at a position incontact with horizontally-deposed panels, and wherein an embeddingportion adapted to hold the buffering member may be disposed at each oftwo opposed ends of the vertically-deposed panel at a position close tothe second opening; a plurality of middle joint components eachpenetrating through the second opening of the vertically-deposed paneland fastened by the first positioning portion, wherein the length of themiddle joint component may be smaller than the height of thevertically-deposed panel, and wherein a first coupling portion, whichmay be but is not limited to a screw bore, may be disposed at each oftwo ends thereof, and a plurality of interlocking components eachpenetrating through the first opening of the horizontally-deposed panelsand having a second coupling portion corresponding to the first couplingportion disposed at each of the two ends thereof for coupling a pair ofmiddle joint components together and thus interconnectinghorizontally-deposed panels with the vertically-deposed panel.

In addition, the present invention further provides an interlockingcomponent assembly for an expandable rack assembly, the interlockingcomponent assembly comprising: a plurality of horizontally-deposedpanels each formed with a first opening and an assist first openingadjacent to one another; a plurality of vertically-deposed panels eachdisposed between two horizontally-deposed panels and formed with asecond opening flush with the first opening and the assist firstopening, wherein a first positioning portion is disposed on each of twoopposed inner walls of the second opening; a plurality of middle jointcomponents penetrating through the second opening of thevertically-deposed panel and fastened by the first positioning portion,wherein a first coupling portion is disposed at each of two ends of themiddle joint component, and wherein the length of the middle jointcomponent is smaller than the height of the vertically-deposed panel; aplurality of sub-vertically-deposed panels each disposed between twohorizontally-deposed panels and formed with a second opening flush withthe first opening and the assist first opening, wherein a firstpositioning portion is disposed on each of two opposed inner walls ofthe second opening respectively; a plurality of sandwiched panelsdisposed between two sub-vertically-deposed panels and formed with athrough bore and an assist through bore flush with the first opening andthe first assist opening; a plurality of sub-middle joint componentseach penetrating through the second opening of thesub-vertically-deposed panel and fastened by the first positioningportion, wherein a first coupling portion is disposed at each of twoopposed inner walls of the sub-middle joint component respectively; anda plurality of interlocking components penetrating through the firstopening and the first assist opening of the horizontally-deposed paneland having a first and a second coupling portions each disposed at twoends thereof, respectively, thereby fastening a pair of middle jointcomponents together to interconnect horizontally-deposed panels with thevertically-deposed panels for connecting the sub-middle joint componentsto thus interconnect and fasten the horizontally-deposed panel, thesandwiched panels and the sub-vertically-deposed panel.

In one preferred embodiment, the second opening may comprise a pluralityof round apertures interconnecting with one other, and the middle jointcomponent may be a cylindrical body positioned in the interconnectedround aperture, wherein the outer diameter of the middle joint componentis larger than that of the first opening. Further, a second positioningportion, which may be but is not limited to a groove, may be disposed atan outer peripheral wall of the middle joint component forcorrespondingly coupling with the first positioning portion which may bebut is not limited to a protruding rib.

In another preferred embodiment, the second opening may comprise aplurality of rectangular apertures interconnecting with one other, andthe middle joint component may be a rectangular pillar positioned in therectangular aperture.

In yet another embodiment, an assist vertically-deposed panel may bedisposed in the second opening for allowing the middle joint componentto penetrate therethrough, wherein the assist vertically-deposed panelmay be formed with a third opening for receiving the middle jointcomponent therein; wherein a fourth positioning portion, which may bebut is not limited to a groove, may be disposed on each of two opposedends of the assist vertically-deposed panel, to couple with the firstpositioning portion which may be but is not limited to a protruding rib,may be disposed on each of two opposed inner walls of the third opening,and wherein a second positioning portion, which may be but is notlimited to a groove, may be disposed on the outer peripheral wall of themiddle joint component, to couple with the third positioning portionwhich may be but is not limited to a groove.

In yet further embodiment, the structure of the sub-vertically-deposedpanel is an equivalent of the vertically-deposed panel, the height ofthe sub-vertically-deposed panel being smaller than that of thevertically-deposed panel; wherein the structure of the sub-middle jointcomponent is an equivalent of the sub-middle joint component, the lengthof the sub-middle joint component being shorter than that of the middlejoint component; wherein an embedding portion is disposed on each of twoopposed ends of the sub-vertically-deposed panel at a position adjacentto the second opening, wherein a buffering member is provided on theembedding portion at a position in contact with the horizontally-deposedpanel; wherein a plurality of interconnected apertures in either roundor rectangular shape are defined in the second opening of thesub-vertically deposed panel, and the sub-middle joint component may bea cylindrical or rectangular body to be positioned in the opening of thesub-vertically-deposed panel; and wherein the first positioning portionof the sub-vertically-deposed panel, which may be but is not limited toa protruding rib; and a second positioning portion, which may be but isnot limited to a groove, may be disposed on the outer peripheral wall ofthe sub-middle joint component for correspondingly coupling with theembodied protruding rib of the first positioning portion.

In accordance with the design of the interlocking component assemblydescribed above, the length of the sub-middle joint component is smallerthan the height of the vertically-deposed panel, such that the one ormore frame units constituted by the plurality of horizontally-deposedpanels and vertically-deposed panels may be securely engaged with andfastened to one another by the penetration and interconnection of themiddle joint component and the interlocking component. Further, thelength variations between the assembly components provides excellentflexibility and great convenience in assembly to be free of installationlimitations, such as the length of the middle joint component and theassembling location, while being able to enhance structural rigidity andstrength of the frame unit.

In addition, the coordination between the horizontally-deposed panelwith the vertically-deposed panel permits the vertically-deposed panelto be flexibly adjusted in a horizontal or vertical orientation withrespect to the horizontally-deposed panel, thereby providing varietiesin assembly for optimal effects and combinations of expandable rackassemblies. Moreover, the foregoing structure allows an addedvertically-deposed panel to be extended towards the direction of theother vertically-deposed panel to function as a rear wall structure, thesandwiched panel to be utilized for storage purposes, and also the twohorizontally-deposed panels to be divided into a plurality of spaces forwhatever purposes a user may have in mind.

These and other advantages, purposes and objects will be more apparentfrom a review of the drawings and the description which follows.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1A to 1C (PRIOR ART) each are perspective views showing aconventional interlocking component assembly of an expandable rackassembly disclosed in Taiwanese Patent Gazette No. 12822265;

FIGS. 2A to 2C each are perspective views each showing a firstembodiment of an interlocking component assembly of an expandable rackassembly according to the present invention;

FIGS. 3A and 3B each are perspective views showing partial sections of asecond embodiment of an interlocking component assembly of an expandablerack assembly according to the present invention;

FIGS. 4A and 4B each are perspective views showing partial sections of athird embodiment of an interlocking component assembly of an expandablerack assembly according to the present invention;

FIGS. 5A and 5B each are perspective views each showing partial sectionsof a fourth embodiment of an interlocking component assembly of anexpandable rack assembly according to the present invention;

FIGS. 6A and 6B each are perspective views showing partial sections of afifth embodiment of an interlocking component assembly of an expandablerack assembly according to the present invention; and

FIGS. 7A and 7C each are perspective views showing partial sections of asixth embodiment of an interlocking component assembly of an expandablerack assembly according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First PreferredEmbodiment

FIGS. 2A to 2C illustrate the first embodiment of an interlockingcomponent assembly of an expandable rack assembly in accordance with thepresent invention. As shown, the interlocking component assembly of anexpandable rack assembly of the present invention includes a pluralityof horizontally-deposed panels 5; a plurality of vertically-deposedpanel 7 each disposed between two horizontally-deposed panels 5; aplurality of middle joint components 6 each disposed in thevertically-deposed panel 7; and a plurality of interlocking components6leach disposed to penetrate through and interconnect thehorizontally-deposed panel 5 with the vertically-deposed panel 7.

Each of horizontally-deposed panel 5 is formed with a first opening 50and may include a protective sheath 500 covered thereon for protectingthe peripheral surface corresponding to the first opening 50, whereinthe horizontally-deposed panel 5 may be made of one selected from thegroup of materials consisting of glass, stone, cement, metal and wood.

Referring to FIG. 2C, each of vertically-deposed panels 7 is a hollowand frame-shape structure to be disposed between twohorizontally-deposed panels 5 and is formed with a second opening 70that is flush with the first opening 50 of the horizontally-deposedpanel 5, wherein a first positioning portion 700 is disposed at aposition on each of two opposed inner walls of the second opening 70respectively to form a plurality of interconnected round apertures, andwherein a buffering member 702 may be disposed on an end surface of thevertically-deposed panel 7 at a position in contact withhorizontally-deposed panels 5 to increase friction therebetween, andwherein an embedding portion 701 adapted to hold the buffering member702 may be disposed on each of two opposite ends of thevertically-deposed panel 7 at a position close to the second opening 70.

The middle joint component 6 is a cylindrical body having a lengthsmaller than the height of the vertically-deposed panel 7 so as to bedisposed in the second opening 70 of the vertically-deposed panel 7,wherein the outer diameter of the middle joint component 6 is slightlysmaller that that of the round interconnected aperture of the secondopening 70, such that the first positioning portion 700 enables themiddle joint component 6 to be fastened in the round aperture, whereinthe outer diameter of the middle joint component 6 is larger than thatof the first opening 50 of horizontally-deposed panel 5, and a firstcoupling portion 60, which may be but is not limited to a screw bore,may be disposed at each of two ends of the middle joint component 6respectively.

Each of the interlocking component 61 is disposed to penetrate throughthe first opening 50 of the horizontally-deposed panels 5 and having asecond coupling portion corresponding to the first coupling portion 60respectively disposed at each of two ends thereof, thereby allowing twomiddle joint components 6 to be inconnected with one another and thusinterconnecting horizontally-deposed panel 5 with the vertically-deposedpanel 7. In this embodiment, the interlocking components 61 may be butis not limited to a screw. In other aspects, the interlocking components61 may be but is not limited to a rod body such as a screw comprising asecond coupling portion disposed at each of two ends thereof.

In assembling the interlocking component assembly of a rack assembly,the vertically-deposed panels 7 are first assembled with and onhorizontally-deposed panels 5, each of middle joint component 6 isinserted in the second opening 70, an then each of the plurality ofscrews with its corresponding washer is locked into the first opening 50to be fastened an locked in the first coupling portion 60. In that thelength of the middle joint component 6 is smaller than the height of thevertically-deposed panel 7, the provision of the protective sheaththereof prevents an end portion of the middle joint component 6 fromgetting horizontally-deposed panels 5 worn and damaged, and theinterlocking components 61 is used to connect with other middle jointcomponent 6. Each of interlocking component 61 is penetrated into thefirst opening 50 and then coupled with the first coupling portion 60 ofthe other first coupling portion 60, thereby allowing the two firstcoupling portions 60 to be interconnected with one another in a stringmanner. Each of vertically-deposed panels 7 and horizontally-deposedpanels 5 are stacked on one another by using the middle joint component6 and the interlocking components 61 to form interconnectiontherebetween until the assembly of the rack assembly is completed. Eachof the plurality of screws 62 is penetrated into the first opening 50with a respective washer 63 to be locked in the first coupling portion60. While locking the screw 62, each of middle joint components 6gradually moves towards the direction of a tip end screw 62, which inturn presses backwardly a top side horizontally-deposed panel 5 locatedon the top side and then moves towards horizontally-deposed panels 5located on the bottom layer by layer, as shown in FIG. 2B, therebysecurely engaging vertically-deposed panel 7 with horizontally-deposedpanels 5 interconnected by the interlocking components 61.

Each of vertically-deposed panels 7 is disposed between twohorizontally-deposed panels 5, the buffering member 702 thereof contactswith the horizontally-deposed panels 5 and thus generates a frictionforce, which can maintain and hold the vertically-deposed panel 7 inposition when being subjected to an external force or vibration.

As mentioned above, the height of the vertically-deposed panel 7 isgreater than the length of the middle joint component 6, so that when aplurality of frame units are assembled together, the vertically-deposedpanel 7 and horizontally-deposed panel 5 are not limited by the lengthof the middle joint component 6. Further, the middle joint component 6is interconnected with the other the middle joint component 6 by meansof the interlocking components 61 for interconnecting a pair of frameunits, with one another to move relatively with the interlockingcomponents 61, thereby securely fastening and engaging thevertically-deposed panel 7 with the horizontally-deposed panel 5 thatare interconnected by the interlocking component 61. This feature allowsthe one or more frame units to be easily assembled at any position freeof limitations of the length of the middle joint component 6 and theassembling location.

Moreover, the provision of the interconnected round apertures in thesecond opening 70 allows the middle joint component 6 to be arbitrarilydisposed therein, such that the vertically-deposed panel 7 can beflexibly adjusted in linear manner with respect to thehorizontally-deposed panel 5, thereby providing varieties in assemblyfor allowing the frame units to be freely assembled as desired.

Second Preferred Embodiment

FIGS. 3A to 3B depict the second embodiment of the interlockingcomponent assembly of an expandable rack assembly according to thepresent invention. In this illustrated embodiment, an alternative designof the vertically-deposed panel 7 and middle joint components 6 is shownin FIGS. 2A and 2C respectively.

As shown in FIGS. 3A and 3B, the middle joint component 6a is acylindrical body in which a plurality of space out second positioningportions 64, which may be but is not limited to a groove, are disposedon the peripheral wall thereof. Each of vertically-deposed panel 7 a isformed with a second opening 70 a in which a plurality of spaced outfirst positioning portions 700 a, which may be but is not limited to aprotruding rib, are disposed on each of two opposed inner walls of thesecond opening 70 a to form a plurality of interconnected rectangularapertures, wherein each of first positioning portions 700 a is adaptedto correspondingly couple with second each of positioning portions 64,thereby positioning and fastening the middle joint component 6a in thesecond opening 70 a.

Third Preferred Embodiment

FIGS. 4A and 4B depict the third embodiment of the interlockingcomponent assembly of an expandable rack assembly according to thepresent invention. In this illustrated embodiment, another alternativedesign of the vertically-deposed panel 7 and middle joint components 6is shown in FIGS. 2A and 2C respectively.

As shown in FIGS. 4A and 4B, the middle joint component 6 b is arectangular pillar in which a plurality of spaced out second positioningportions 64 b, which may be but is not limited to a protruding rib, aredisposed on each of two opposed end portions thereof.

Each of the vertically-deposed panel 7 b is formed with a second opening70 b in which a plurality of spaced out first positioning portions 700b, which may be but is not limited to a protruding rib, are on each oftwo opposed inner walls of the second opening 70 b to form a pluralityof interconnected rectangular apertures, wherein each of firstpositioning portions 700 b is adapted to correspondingly couple witheach of second positioning portions 64 b, thereby positioning andfastening the middle joint component 6 b in the interconnectedrectangular aperture.

Fourth Preferred Embodiment

FIGS. 5A and 5B depict the fourth embodiment of the interlockingcomponent assembly of an expandable rack assembly according to thepresent invention. In this illustrated embodiment, another alternativedesign of the vertically-deposed panel 7 is disclosed, and the design ofmiddle joint components 6 b has been disclosed in FIGS. 4A and 4Brespectively.

Each of vertically-deposed panel 7 c is formed with a second opening 70c in which a plurality of spaced out first positioning portions 700 c,which may be but is not limited to a protruding rib, are disposed oneach of two opposed inner walls of the second opening 70 c to form aplurality of interconnected rectangular apertures, wherein each of firstpositioning portions 700 c is adapted to correspondingly couple witheach of second positioning portions 64 b, thereby positioning andfastening the middle joint component 6 b in the interconnectedrectangular aperture.

Fifth Preferred Embodiment

FIGS. 6A and 6B depict the fifth embodiment of the interlockingcomponent assembly of an expandable rack assembly according to thepresent invention. In this illustrated embodiment, yet anotheralternative design of the vertically-deposed panel 7 is disclosed, andthe design of middle joint components 6 a has been disclosed in FIGS. 3Aand 3B respectively.

Each of the vertically-deposed panel 7 d is formed with a second opening70 d in which a plurality of spaced out first positioning portions 700d, which may be but is not limited to a protruding rib, are disposed oneach of two opposed inner walls of the second opening 70 d to form aplurality of interconnected rectangular apertures.

The illustrated embodiment further includes at least an assistvertically-deposed panel 8 which is a rectangular-shaped hollow bodyformed with a third opening 80 in which a plurality of spaced out thirdpositioning portions 800, which may be but is not limited to aprotruding rib, are disposed on each of two opposed inner walls of thethird opening 80 to form a plurality of interconnected rectangularapertures, wherein a plurality of fourth positioning portion 81, whichmat be but is not limited to a groove, are disposed on each of twoopposed end portions of the assist vertically-deposed panel 8.

The assist vertically-deposed panels 8 is adapted to penetrate into arespective interconnected rectangular aperture formed in the secondopening 70 d. Each of fourth positioning portions 81 is coupled with arespectively first positioning portion 700 d to position and fasten theassist vertically-deposed panel 8 in the second opening 70 d. Each ofmiddle joint components 6 a is adapted to penetrate into the thirdopening 80, and is coupled with the second positioning portion 64 tothereby position and fasten the middle joint component 6 a in the thirdpositioning portions 800. Accordingly, the vertically-deposed panel 7 dmay be flexibly adjusted in a generally horizontal or verticalorientation with respect to the horizontally-deposed panel without beinglimited by the position of the first opening of the horizontally-deposedpanel, thereby achieving an optimal position and application.

Summarizing the embodiments described above, the present invention ischaracterized in that the height of each of vertically-deposed panels 7,7 a, 7 c, 7 d is greater than the length of each of middle jointcomponents 6, 6 a, 6 b, thereby enabling assembly of the frame unit tobe free of limitations of the length of each of middle joint components6, 6 a, 6 b as well as the installation location.

Further, the interaction between middle joint components 6, 6 a, 6 benables each of vertically-deposed panels 7, 7 a, 7 c, 7 d and each ofhorizontally-deposed panels 5 that are connected by interlockingcomponents 61 to be tightly couple to one another and fastened inposition while enhancing structural rigidity of the frame unit.

Moreover, the coordination of the horizontally-deposed panel with thevertically-deposed panel permits each of vertically-deposed panels 7, 7a, 7 c, 7 d to be flexibly adjusted in a generally horizontal orvertical orientation with respect to the horizontally-deposed panel 5without being limited by the position of the first opening 50, therebyproviding varieties in assembly for optimal effects and combinations ofexpandable rack assemblies.

Sixth Preferred Embodiment

FIGS. 7A and 7C depict the sixth embodiment of the interlockingcomponent assembly of an expandable rack assembly according to thepresent invention. In this illustrated embodiment, yet anotheralternative design of the interlocking component assembly of anexpandable rack assembly is disclosed.

As shown in FIGS. 7A and 7B, the structural design of thevertically-deposed panel 7 and the middle joint components 6 a in thisembodiment is substantially the same as that disclosed in FIG.2A and,therefore, it is not further described herein for brevity. Also, thestructure is similar to each of vertically-deposed panels 7, 7 a, 7 c, 7d and each of middle joint components 6, 6 a, 6 b disclosed in FIGS. 3B,4B, 5B, and 6B respectively.

Each of horizontally-deposed panels 5 a is formed with a plurality offirst openings 50 a and a plurality of assist first openings 51 a, eachof first openings 50 a being disposed at a central position on each oftwo opposed sides of the horizontally-deposed panel 5 a respectively,and each of assist first openings 51 a being disposed at an edgeposition on each of two opposed sides of the horizontally-deposed panel5 a respectively and is adjacent to the first opening 50 a, wherein aprotective sheath 500 is disposed to cover each of first openings 50 aand assist first openings 51 a respectively.

The present invention further includes a plurality ofsub-vertically-deposed panels 7 e, a plurality of sub-middle jointcomponents 6 c each disposed to penetrate into each ofsub-vertically-deposed panels 7 e, a sandwiched panel 9 disposed betweenthe two sub-vertically-deposed panels 7 e, and a plurality of pressingbattens 64 each disposed on the horizontally-deposed panel 5 e.

Similar to the vertically-deposed panel 7, the sub-vertically-deposedpanel 7 e is comprised of a second opening 70 e, a first positioningportion 700 e, an embedding portion 701 e, and a buffering member 702 e,wherein the sub-vertically-deposed panel 7 e is shorter than thevertically-deposed panel 7 in height.

Similar to the middle joint component 6, the sub-middle joint component6 c comprises a first coupling portion 60 c and is shorter than themiddle joint component 6 in height.

The sandwiched panel 9 is formed with a through bore 90 and an assistthrough bore 91 at positions corresponding to the first opening 50 a andthe assist first opening 51 a in the horizontally-deposed panel 5 a,wherein a protective sheath 500 is respectively provided to cover boththe through bore 90 and the assist through bore 91.

Each of pressing battens 64 is formed with a through bore 640 and anassist through bore 641 at positions corresponding to the first opening50 a and the assist first opening 51 a in the horizontally-deposed panel5 a.

In assembly, the vertically-deposed panel 7 may be deposed on one sideof the horizontally-deposed panel 5 a, and a vertically deposed panel 7,a sub-vertically-deposed panel 7 e and a sandwiched panel 9 may bedisposed on the other opposed side thereof. The method of assembling thevertically-deposed panel 7 on one side of the horizontally-deposed panel5 a is substantially the same as that disclosed in the first embodiment,therefore, it is not further described herein for brevity. The onlydifference between this and the first embodiment is that a screw 62 isfastened into the through bore 640 in the pressing batten 64 and thefirst opening 50 a and is locked in the first coupling portion 60. Theone side of the horizontally-deposed panel 5 a, on which thevertically-deposed panel 7, the sub-vertically-deposed panel 7 e and thesandwiched panel 9 are assembled, is fastened by a pair of screws 62 bylocking into the through bore 640 and the assist through bore 641 formedin the pressing batten 64 respectively, and is locked in a firstcoupling portion 60 c formed on each of the two sub-middle jointcomponents 6c, while the other first coupling portion 60 c thereof islocked to an interlocking component 61, the two interlocking componentseach penetrating into in. The through bore 90 and the assist throughbore 91 of the sandwiched panel 9 respectively, and further are lockedin both the second opening 70 e of the sub-vertically-deposed panel 7 eand the first coupling portion 60 c of the sub-middle joint component 6c.

A screw 62 is adapted to penetrate through a corresponding washer 63 andthe first opening 50 a of the horizontally-deposed panel 5 arespectively, and is locked in the other first coupling portion 60 c ofthe sub-middle joint component 6 c. An interlocking component 61 islocked to the other first coupling portion 60 c of the other sub-middlejoint component 6 c, and is locked to a first coupling portion 60 of amiddle joint component 6 located at an outmost side with respect to thefirst opening 70 of the vertically-deposed panel 7, one end of thevertically-deposed panel 7 extending towards the othervertically-deposed panel 7 disposed on the other side of thehorizontally-deposed panel 5, the other screw 62 penetrating into theassist through bore 641 of the pressing batten 64 and the assist firstopening 51 a respectively, and being locked to the other first couplingportion 60 of the middle joint component 6.

As shown in FIG. 7, the foregoing embodiment includes at least one layerstructure wherein one side of the horizontally-deposed panel 5 a has atleast two vertically-deposed panels 7, a sub-vertically-deposed panel 7e and a sandwiched panel 9 mounted orderly thereon, while the other sidethereof has two vertically-deposed panels 7, a sub-vertically-deposedpanel 7 e and a sandwiched panel 9 mounted orderly thereon. According tothe practical situation, a screw 62 may be optionally added to be lockedin the first opening 50 a or the assist first opening 51 a, such thatonly one sub-middle joint component is required in thesub-vertically-deposed panel 7 e to enable deflective rotation at allangles as desired, and the vertically-deposed panel 7 can also bedeflective rotated at all angles, as shown in FIGS. 7B and 7C, sincethere in only one middle joint component 6 disposed therein.

In the foregoing structure, the vertically-deposed panel 7 having oneend thereof extending from the other vertically-deposed panel 7 mayfunction as a rear wall structure, the sandwiched panel 9 may be used tostore things, and the two horizontally-deposed panels may be dividedinto a plurality of spaces for storage purposes as well.

While the illustrative embodiments are provided in the abovedescription, such is for illustration of principles and functions of thepresent invention only and it is not to be construed restrictively.Modifications and variations of the present invention that will beobvious to those skilled in the art in the art are to be covered by thefollowing claims.

1. An interlocking component assembly of an expandable rack assembly,said interlocking component assembly comprising: a plurality ofhorizontally-deposed panels each formed with a first opening; aplurality of vertically-deposed panels each disposed between twohorizontally-deposed panels and formed with a second opening flush withthe first opening, wherein a first positioning portion is disposed oneach of two opposed inner walls of the second opening respectively, aplurality of middle joint components adapted to penetrate through thesecond opening of the vertically-deposed panel and fastened by the firstpositioning portion, wherein a first coupling portion is disposed ateach of the two ends thereof, and a plurality of interlocking componentsadapted to penetrate through the first opening of thehorizontally-deposed panel, and having a second coupling portioncorresponding to the first coupling portion disposed at each of the twoends thereof for coupling a pair of middle joint components together andthus interconnecting the horizontally-deposed panel with thevertically-deposed panel.
 2. The interlocking component assembly of anexpandable rack assembly according to claim 1, wherein thehorizontally-deposed panel is a panel body made of a material selectedfrom the group consisting of glass, stone, cement, metal and wood. 3.The interlocking component assembly of an expandable rack assemblyaccording to claim 1, wherein a buffering member is disposed on each oftwo opposed ends of the vertically-deposed panel at a position incontact with the horizontally-deposed panel, and wherein an embeddingportion for holding the buffering member is disposed at each of the twoopposed ends of the vertically-deposed panel at a position close to thesecond opening.
 4. The interlocking component assembly of an expandablerack assembly according to claim 1, wherein the second opening comprisesa plurality of interconnected round apertures, and the middle jointcomponent is a cylindrical body positioned in the round aperture, theouter diameter of the middle joint component being larger than that ofthe first opening.
 5. The interlocking component assembly of anexpandable rack assembly according to claim 1, wherein the secondopening comprises a plurality of interconnected rectangular apertures,and the middle joint component is a rectangular pillar to be positionedin the rectangular aperture.
 6. The interlocking component assembly ofan expandable rack assembly according to claim 1, wherein the firstpositioning portion of the vertically-deposed panel comprises protrudingribs, and wherein a second positioning portion which may comprisegrooves is disposed on the outer peripheral wall of the middle jointcomponent for correspondingly coupling with the embodied protruding ribof the first positioning portion.
 7. The interlocking component assemblyof an expandable rack assembly according to claim 1, wherein the firstcoupling portion comprises screw bores and the second coupling portioncomprises screws.
 8. The interlocking component assembly of anexpandable rack assembly according to claim 1, wherein an assistvertically-deposed panel is disposed in the second opening for allowingthe middle joint components to penetrate therethrough, the assistvertically-deposed panel being formed with a third opening for receivingthe middle joint component therein; wherein a fourth positioning portionwhich comprises grooves is disposed on each of the two opposed ends ofthe assist vertically-deposed panel for coupling with the protruding ribof the first positioning portion; wherein a third positioning portionwhich comprises protruding ribs is disposed on each of the two opposedinner walls of the third opening; and wherein a second positioningportion which comprises grooves is disposed on the outer peripheral wallof the middle joint component for coupling with the embodied groove ofthe third positioning portion.
 9. The interlocking component assembly ofan expandable rack assembly according to claim 1, wherein the length ofthe middle joint component is smaller than the height of thevertically-deposed panel.
 10. The interlocking component assembly of anexpandable rack assembly according to claim 1, wherein a protectivesheath is adapted to cover the first opening.
 11. An interlockingcomponent assembly of an expandable rack assembly, said interlockingcomponent assembly comprising: a plurality of horizontally-deposedpanels each formed with a first opening and an assist first openingadjacent to one another; a plurality of vertically-deposed panels eachdisposed between two horizontally-deposed panels and formed with asecond opening flush with the first opening and the assist first openingthereof, wherein a first positioned portion is disposed on each of thetwo opposed inner walls of the second opening respectively; a pluralityof middle joint components adapted to penetrate through the secondopening of the vertically-deposed panel and fastened by the firstpositioning portion, wherein a first coupling portion is disposed ateach of the two ends of the middle joint component respectively; aplurality of sub-vertically-deposed panels each disposed between twohorizontally-deposed panels and formed with a second opening flush withthe first opening and the assist first opening, wherein a firstpositioning portion is disposed on each of the two opposed inner wallsof the second opening respectively; a plurality of sandwiched panelseach disposed between two sub-vertically-deposed panels and formed witha through bore and an assist through bore flush with the first openingand the first assist opening; a plurality of sub-middle joint componentseach adapted to penetrate through the second opening of thesub-vertically-deposed panel and fastened by the first positioningportion, wherein a first coupling portion is disposed at each of the twoopposed inner walls of the sub-middle joint component respectively; anda plurality of interlocking components each adapted to penetrate throughthe first opening and the first assist opening of thehorizontally-deposed panel, and having a first and a second couplingportions each disposed at two ends thereof respectively, therebyfastening two middle joint components together to interconnect thehorizontally-deposed panel with the vertically-deposed panel forconnecting the sub-middle joint component, thus interconnecting andfastening the horizontally-deposed panel, the sandwiched panel, and thesub-vertically-deposed panel.
 12. The interlocking component assembly ofan expandable rack assembly according to claim 11, wherein the structureof the sub-vertically-deposed panel is equivalent to thevertically-deposed panel, the height of the sub-vertically-deposed panelbeing smaller than that of the vertically-deposed panel; and wherein thestructure of the sub-middle joint component is equivalent to thesub-middle joint component, the length of the sub-middle joint componentbeing shorter than that of the middle joint component.
 13. Theinterlocking component assembly of an expandable rack assembly accordingto claim 11, wherein an embedding portion is disposed on each of the twoopposed ends of the vertically-deposed panel at a position adjacent tothe second opening, wherein a buffering member is further provided onthe embedding portion at a position in contact with thehorizontally-deposed panel; and wherein an embedding portion is disposedon each of the two opposed ends of the sub-vertically-deposed panel at aposition adjacent to the second opening, wherein a buffering member isprovided on the embedding portion at a position in contact with thehorizontally-deposed panel.
 14. The interlocking component assembly ofan expandable rack assembly according to claim 11, wherein a pluralityof spaced out interconnected round apertures are defined in the secondopening of the vertically deposed panel and the sub-vertically deposedpanel respectively, and the sub-middle joint component is a cylindricalbody to be positioned and fastened in the opening of the verticallydeposed panel and sub-vertically-deposed panel respectively.
 15. Theinterlocking component assembly of an expandable rack assembly accordingto claim 11, wherein a plurality of spaced out interconnectedrectangular apertures are defined in the second opening of thevertically deposed panel and the sub-vertically-deposed panelrespectively, and the sub-middle joint components is a rectangularpillar to be positioned and fastened in the opening of thevertically-deposed panel and the sub-vertically-deposed panelrespectively.
 16. The interlocking component assembly of an expandablerack assembly according to claim 11, wherein the first positioningportion of the vertically-deposed panel and the sub-vertically-deposedpanel comprises protruding ribs, and a second positioning portion whichcomprises grooves is disposed on the outer peripheral wall of the middlejoint component for coupling with the embodied protruding rib of thefirst positioning portion.
 17. The interlocking component assembly of anexpandable rack assembly according to claim 11, wherein the firstcoupling portion comprises screw bores and the second coupling portioncomprises screws.
 18. The interlocking component assembly of anexpandable rack assembly according to claim 11, wherein an assistvertically-deposed panel is disposed in the second opening for allowingthe middle joint component to penetrate therethrough, the assistvertically-deposed panel being formed with a third opening for receivingthe middle joint component therein; wherein a fourth positioning portionwhich comprises grooves is disposed on each of the two opposed ends ofthe assist vertically-deposed panel for coupling with the protruding ribof the first positioning portion; wherein a third positioning whichcomprises protruding ribs is disposed on each of the two opposed innerwalls of the third opening, and wherein a second positioning portionwhich comprises grooves is disposed on the outer peripheral wall of themiddle joint component for coupling with the embodied groove of thethird positioning portion.
 19. The interlocking component assembly of anexpandable rack assembly according to claim 11, wherein the length ofthe middle joint component is smaller than the height of thesub-vertically-deposed panel.
 20. The interlocking component assembly ofan expandable rack assembly according to claim 11, wherein a protectivesheath is adapted to cover the first opening.